Axiom 9.Every universe has a beginning and an end. The first micro universes were
formed by spontaneously occurring quantum events sufficiently
concentrated to make a micro black hole.

A.Universe formation systems (multiverses) have a beginning and may have an end. Every
universe has a beginning and an end.

B. First micro universes.

Prior to the formation of any universe, small spontaneous
events occurred, probably on the subatomic scale as predicted by Heisenberg’s
uncertainty principle. No matter how unlikely, some event or
series of events started the universe formation process, since our universe
exists. With infinite potential time available, some unlikely combination of
small events occurred. This micro
universe hypothesis is speculative, but it may stimulate discussion and other
ideas on the probability of micro universes serving as the initiating source of
universe formation and evolution.

This plausible
description provides an example of how the first micro universe could have formed in a singularity acceleration
system. The first micro universe was formed when several quantum events
occurred spontaneously with sufficiently concentrated particles to make a micro
black hole. In this case the black hole was not in a universe; however, it
functioned as the equivalent of a micro universe. Given enough time it is
reasonable to assume that many spontaneous black holes occurred at about the
same time and place. In a rare event, these micro black holes nearly collided
and were flung apart and accelerated by gravity assists. The acceleration
slowed the black hole decay process long enough for subsequent near collisions
to occur with other micro black holes. Several gravity assists caused by near
collisions could accelerate the micro black hole singularity to the speed of
light, creating the first universe caused by a big bang, be it a very small
one. This process probably occurred very quickly, maybe in less than a
second.

C. Subsequent micro universes

The natural
selection process results in larger universes that become more effective in
making more universes. Occasionally a change occurs in a law of physics that
leads to something new that works to make the production of universes more
efficient. The chances of this process working within an infinitesimally small
scale universe and evolving a sequence of increasingly large universes that
resulted in a much larger universe seem small. However, given the incredibly
long time spans involved, eventually a reliable system for producing universes
was likely to happen, as demonstrated by the fact that one exists.

After the first
micro universe came into existence, subsequent micro universes would likely
evolve and sometimes fail to make more universes. Eventually a sequence worked
over many generations that resulted in larger singularities that formed larger
universes. Universe evolution would eventually solve all the problems necessary
to make large universes with baryonic matter and many stars because we have the
evidence of our existence. It is plausible that not every micro universe was
successful, and even every universe sequence that formed star systems may not
have succeeded in creating other universes. The unsuccessful universes would
disappear given enough time, leaving no trace after degeneration. Statistical
probability dictates that eventually universes would have happened upon laws
that consistently made more universes. Given enough attempts, a system evolved
that solved several problems, such as how to get a singularity to warp space at
the speed of light and how to multiply mass during a big bang. In addition, new
universes would have evolved laws of physics so all the components usually
associated with the universe, such as baryonic and dark matter, gravity, electromagnetism,
strong and weak forces, and the speed of light, would be within the physical
parameters needed for any universe to make another generation. [41] After
more generations of these early stage micro universes, subsequent generations
became larger. The processes evolved that caused some new universes to produce
stars that made blacks holes and galaxies.